// Licensed to the .NET Foundation under one or more agreements. // The .NET Foundation licenses this file to you under the Apache 2.0 License. // See the LICENSE file in the project root for more information. using System.Collections.Generic; using System.Threading; using System.Threading.Tasks; namespace System.Linq { public static partial class AsyncEnumerable { public static IAsyncEnumerable Select(this IAsyncEnumerable source, Func selector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (selector == null) throw Error.ArgumentNull(nameof(selector)); switch (source) { case AsyncIterator iterator: return iterator.Select(selector); case IList list: return new SelectIListIterator(list, selector); } return new SelectEnumerableAsyncIterator(source, selector); } public static IAsyncEnumerable Select(this IAsyncEnumerable source, Func selector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (selector == null) throw Error.ArgumentNull(nameof(selector)); return Create(Core); async IAsyncEnumerator Core(CancellationToken cancellationToken) { var index = -1; await foreach (var element in source.WithCancellation(cancellationToken).ConfigureAwait(false)) { checked { index++; } yield return selector(element, index); } } } internal static IAsyncEnumerable SelectAwaitCore(this IAsyncEnumerable source, Func> selector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (selector == null) throw Error.ArgumentNull(nameof(selector)); switch (source) { case AsyncIterator iterator: return iterator.Select(selector); case IList list: return new SelectIListIteratorWithTask(list, selector); } return new SelectEnumerableAsyncIteratorWithTask(source, selector); } #if !NO_DEEP_CANCELLATION internal static IAsyncEnumerable SelectAwaitWithCancellationCore(this IAsyncEnumerable source, Func> selector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (selector == null) throw Error.ArgumentNull(nameof(selector)); switch (source) { case AsyncIterator iterator: return iterator.Select(selector); case IList list: return new SelectIListIteratorWithTaskAndCancellation(list, selector); } return new SelectEnumerableAsyncIteratorWithTaskAndCancellation(source, selector); } #endif internal static IAsyncEnumerable SelectAwaitCore(this IAsyncEnumerable source, Func> selector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (selector == null) throw Error.ArgumentNull(nameof(selector)); return Create(Core); async IAsyncEnumerator Core(CancellationToken cancellationToken) { var index = -1; await foreach (var element in source.WithCancellation(cancellationToken).ConfigureAwait(false)) { checked { index++; } yield return await selector(element, index).ConfigureAwait(false); } } } #if !NO_DEEP_CANCELLATION internal static IAsyncEnumerable SelectAwaitWithCancellationCore(this IAsyncEnumerable source, Func> selector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (selector == null) throw Error.ArgumentNull(nameof(selector)); return Create(Core); async IAsyncEnumerator Core(CancellationToken cancellationToken) { var index = -1; await foreach (var element in source.WithCancellation(cancellationToken).ConfigureAwait(false)) { checked { index++; } yield return await selector(element, index, cancellationToken).ConfigureAwait(false); } } } #endif internal sealed class SelectEnumerableAsyncIterator : AsyncIterator { private readonly Func _selector; private readonly IAsyncEnumerable _source; private IAsyncEnumerator? _enumerator; public SelectEnumerableAsyncIterator(IAsyncEnumerable source, Func selector) { _source = source; _selector = selector; } public override AsyncIteratorBase Clone() { return new SelectEnumerableAsyncIterator(_source, _selector); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { await _enumerator.DisposeAsync().ConfigureAwait(false); _enumerator = null; } await base.DisposeAsync().ConfigureAwait(false); } public override IAsyncEnumerable Select(Func selector) { return new SelectEnumerableAsyncIterator(_source, CombineSelectors(_selector, selector)); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _enumerator = _source.GetAsyncEnumerator(_cancellationToken); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await _enumerator!.MoveNextAsync().ConfigureAwait(false)) { _current = _selector(_enumerator.Current); return true; } break; } await DisposeAsync().ConfigureAwait(false); return false; } } internal sealed class SelectIListIterator : AsyncIterator, IAsyncIListProvider { private readonly Func _selector; private readonly IList _source; private IEnumerator? _enumerator; public SelectIListIterator(IList source, Func selector) { _source = source; _selector = selector; } public override AsyncIteratorBase Clone() { return new SelectIListIterator(_source, _selector); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; } await base.DisposeAsync().ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } cancellationToken.ThrowIfCancellationRequested(); var count = 0; foreach (var item in _source) { _selector(item); checked { count++; } } return new ValueTask(count); } public override IAsyncEnumerable Select(Func selector) { return new SelectIListIterator(_source, CombineSelectors(_selector, selector)); } public ValueTask ToArrayAsync(CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); var n = _source.Count; var res = new TResult[n]; for (var i = 0; i < n; i++) { res[i] = _selector(_source[i]); } return new ValueTask(res); } public ValueTask> ToListAsync(CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); var n = _source.Count; var res = new List(n); for (var i = 0; i < n; i++) { res.Add(_selector(_source[i])); } return new ValueTask>(res); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _enumerator = _source.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator!.MoveNext()) { _current = _selector(_enumerator.Current); return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } } internal sealed class SelectEnumerableAsyncIteratorWithTask : AsyncIterator { private readonly Func> _selector; private readonly IAsyncEnumerable _source; private IAsyncEnumerator? _enumerator; public SelectEnumerableAsyncIteratorWithTask(IAsyncEnumerable source, Func> selector) { _source = source; _selector = selector; } public override AsyncIteratorBase Clone() { return new SelectEnumerableAsyncIteratorWithTask(_source, _selector); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { await _enumerator.DisposeAsync().ConfigureAwait(false); _enumerator = null; } await base.DisposeAsync().ConfigureAwait(false); } public override IAsyncEnumerable Select(Func> selector) { return new SelectEnumerableAsyncIteratorWithTask(_source, CombineSelectors(_selector, selector)); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _enumerator = _source.GetAsyncEnumerator(_cancellationToken); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await _enumerator!.MoveNextAsync().ConfigureAwait(false)) { _current = await _selector(_enumerator.Current).ConfigureAwait(false); return true; } break; } await DisposeAsync().ConfigureAwait(false); return false; } } #if !NO_DEEP_CANCELLATION internal sealed class SelectEnumerableAsyncIteratorWithTaskAndCancellation : AsyncIterator { private readonly Func> _selector; private readonly IAsyncEnumerable _source; private IAsyncEnumerator? _enumerator; public SelectEnumerableAsyncIteratorWithTaskAndCancellation(IAsyncEnumerable source, Func> selector) { _source = source; _selector = selector; } public override AsyncIteratorBase Clone() { return new SelectEnumerableAsyncIteratorWithTaskAndCancellation(_source, _selector); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { await _enumerator.DisposeAsync().ConfigureAwait(false); _enumerator = null; } await base.DisposeAsync().ConfigureAwait(false); } public override IAsyncEnumerable Select(Func> selector) { return new SelectEnumerableAsyncIteratorWithTaskAndCancellation(_source, CombineSelectors(_selector, selector)); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _enumerator = _source.GetAsyncEnumerator(_cancellationToken); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await _enumerator!.MoveNextAsync().ConfigureAwait(false)) { _current = await _selector(_enumerator.Current, _cancellationToken).ConfigureAwait(false); return true; } break; } await DisposeAsync().ConfigureAwait(false); return false; } } #endif // NB: LINQ to Objects implements IPartition for this. However, it seems incorrect to do so in a trivial // manner where e.g. TryGetLast simply indexes into the list without running the selector for the first n - 1 // elements in order to ensure side-effects. We should consider whether we want to follow this implementation // strategy or support IAsyncPartition in a less efficient but more correct manner here. private sealed class SelectIListIteratorWithTask : AsyncIterator, IAsyncIListProvider { private readonly Func> _selector; private readonly IList _source; private IEnumerator? _enumerator; public SelectIListIteratorWithTask(IList source, Func> selector) { _source = source; _selector = selector; } public override AsyncIteratorBase Clone() { return new SelectIListIteratorWithTask(_source, _selector); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; } await base.DisposeAsync().ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { cancellationToken.ThrowIfCancellationRequested(); var count = 0; foreach (var item in _source) { await _selector(item).ConfigureAwait(false); checked { count++; } } return count; } } public override IAsyncEnumerable Select(Func> selector) { return new SelectIListIteratorWithTask(_source, CombineSelectors(_selector, selector)); } public async ValueTask ToArrayAsync(CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); var n = _source.Count; var res = new TResult[n]; for (var i = 0; i < n; i++) { res[i] = await _selector(_source[i]).ConfigureAwait(false); } return res; } public async ValueTask> ToListAsync(CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); var n = _source.Count; var res = new List(n); for (var i = 0; i < n; i++) { res.Add(await _selector(_source[i]).ConfigureAwait(false)); } return res; } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _enumerator = _source.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator!.MoveNext()) { _current = await _selector(_enumerator.Current).ConfigureAwait(false); return true; } break; } await DisposeAsync().ConfigureAwait(false); return false; } } #if !NO_DEEP_CANCELLATION private sealed class SelectIListIteratorWithTaskAndCancellation : AsyncIterator, IAsyncIListProvider { private readonly Func> _selector; private readonly IList _source; private IEnumerator? _enumerator; public SelectIListIteratorWithTaskAndCancellation(IList source, Func> selector) { _source = source; _selector = selector; } public override AsyncIteratorBase Clone() { return new SelectIListIteratorWithTaskAndCancellation(_source, _selector); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; } await base.DisposeAsync().ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { cancellationToken.ThrowIfCancellationRequested(); var count = 0; foreach (var item in _source) { await _selector(item, cancellationToken).ConfigureAwait(false); checked { count++; } } return count; } } public override IAsyncEnumerable Select(Func> selector) { return new SelectIListIteratorWithTaskAndCancellation(_source, CombineSelectors(_selector, selector)); } public async ValueTask ToArrayAsync(CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); var n = _source.Count; var res = new TResult[n]; for (var i = 0; i < n; i++) { res[i] = await _selector(_source[i], cancellationToken).ConfigureAwait(false); } return res; } public async ValueTask> ToListAsync(CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); var n = _source.Count; var res = new List(n); for (var i = 0; i < n; i++) { res.Add(await _selector(_source[i], cancellationToken).ConfigureAwait(false)); } return res; } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _enumerator = _source.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator!.MoveNext()) { _current = await _selector(_enumerator.Current, _cancellationToken).ConfigureAwait(false); return true; } break; } await DisposeAsync().ConfigureAwait(false); return false; } } #endif } }